Display and Driving Method Thereof

1. A display including: scan signal lines and video data signal lines arranged to form a matrix; pixels each connected to one or two of the scan signal lines and one of the video data signal lines; and current supply paths, each of said pixels comprising: a light-emitting element for emitting light on receipt of a current supply; a path selector switching element whose source and drain electrodes are disposed between the light-emitting element and the current supply paths for supplying said light-emitting element with said current supply from either of the current supply paths and whose gate electrodes are in connection with the one or two scan signal lines for selecting which current supply path provides said light-emitting element with said current supply; and a drive-switching element that connects the light-emitting element to the path selector switching element.

2. A display including: pixels arranged in rows and columns to form a matrix; scan signal lines for driving the pixels row by row; video data signal lines for supplying a video data signal to the pixels; and current supply paths for supplying a current to the pixels, each of said pixels comprising: a light-emitting element for emitting light on receipt of a current supply; a path selector switching element whose source and drain electrodes are disposed between the light-emitting element and the current supply paths for supplying said light-emitting element with said current supply from either of the current supply paths and whose gate electrodes are in connection with the one or two scan signal lines to select which current supply path provides said light-emitting element with said current supply; and a drive-switching element for supplying to the light-emitting element a current supply which matches the video data signal supplied through one of the video data signal lines.

3. The display as defined in claim 2 , further including current measuring circuits, each connected to at least one of the current supply paths, for measuring current flows.

4. The display as defined in claim 3 , further including voltage setting circuits, each connected to a different one of the video data signal lines, for setting applied voltages to the video data signal lines according to current values measured by the current measuring circuits.

5. The display as defined in claim 2 , wherein: the drive-switching element is made of at least one field effect transistor; and the field effect transistor is connected at either one of a source terminal and a drain terminal thereof to the light-emitting element and at the remaining one of the source terminal and the drain terminal to the path selector switching element.

6. The display as defined in claim 2 , wherein the path selector switching element is made of field effect transistors.

7. The display as defined in claim 6 , wherein at least one of the field effect transistors is of an n type, and at least another one is of a p type.

8. The display as defined in claim 6 , wherein each of the field effect transistors is connected at either one of a source terminal and a drain terminal thereof to the drive-switching element and at the other of the source terminal and the drain terminal to the current supply paths.

9. The display as defined in claim 6 , wherein each of the field effect transistors is connected at a gate terminal thereof to one of the scan signal lines.

10. The display as defined in claim 2 , wherein: signal holding means for holding the video data signal is connected to the drive-switching element; and the signal holding means is constituted by a holding capacitor.

11. The display as defined in claim 10 , wherein: the holding capacitor is connected to a gate terminal of a field effect transistor constituting the drive-switching element.

12. The display as defined in claim 2 , wherein: the light-emitting element is an organic electroluminescence element.

13. A method of driving a display including: pixels arranged in rows and columns to form a matrix; scan signal lines for driving the pixels row by row; video data signal lines for supplying a video data signal to the pixels; and current supply paths for supplying a current to the pixels, each of said pixels including: a light-emitting element for emitting light on receipt of a current supply; a path selector switching element whose source and drain electrodes are disposed between the light-emitting element and the current supply paths for supplying said light-emitting element with the current supply from one of the current supply paths and whose gate electrodes are in connection with the scan signal lines for switching between the current supply paths according to a scan signal supplied by one of the scan signal lines; and a drive-switching element for supplying to the light-emitting element said current supply which matches with the video data signal supplied through one of the video data signal lines; said method comprising the step of using the first current supply path, through which a current is supplied to the light-emitting element, during a scan period during which the light-emitting element is being driven, and the second current supply path during a time period other than the scan period.

14. The method as defined in claim 13 , wherein during the scan period, a current is supplied to the light-emitting element through the first current supply path being used for current measurement; and during the time period other than the scan period, a current is supplied to the light-emitting element through the second current supply paths.

15. The method as defined in claim 13 , wherein during the scan period, a voltage applied to one of the video data signal lines is adjusted, according to a measured value of the current supplied to the associated light-emitting element through the current supply path used for current measurement, so that a measured value of the current equals a value matching with the video data signal.

16. A method of driving a display including as pixels light-emitting elements for emitting light on a current supply, said method comprising the steps of: (a) sequentially driving the light-emitting elements; (b) supplying a video data signal to the light-emitting elements; and (c) supplying a current which matches with the video data signal to the light-emitting elements through one of current supply paths, wherein in step (c), one of the current supply paths is selected for use during a scan period during which the light-emitting element is being driven, and a different one of the current supply paths is selected for use during a time period other than the scan period.

17. A display including: scan signal lines and video data signal lines arranged to form a matrix; pixels each connected to one or two of the scan signal lines and one of the video data signal lines; and current supply paths, each of said pixels comprising: a light-emitting element for emitting light on receipt of a current supply; a path selector switching element whose source and drain electrodes are disposed between the light-emitting element and the current supply paths for supplying said light-emitting element with the current supply from one of the current supply paths; and a drive-switching element that connects the light-emitting element to the path selector switching element; and wherein the path selector switching element switches between a first current supply path for selected pixels and a second current supply path for non-selected pixels.

18. A display including: pixels arranged in rows and columns to form a matrix; scan signal lines for driving the pixels row by row; video data signal lines for supplying a video data signal to the pixels; and current supply paths for supplying a current to the pixels, each of said pixels comprising: a light-emitting element for emitting light on receipt of a current supply; a path selector switching element whose source and drain electrodes are disposed between the light-emitting element and the current supply paths for supplying said light-emitting element with the current supply from either of the current supply paths and whose gate electrodes are in connection with the scan signal lines, for switching between the current supply paths according to a scan signal supplied through one of the scan signal lines; and a drive-switching element for supplying to the light-emitting element a current which matches with the video data signal supplied through one of the video data signal lines; and wherein the path selector switching element switches between a first current supply path for selected pixels and a second current supply path for non-selected pixels.